Post-Fire: Assessing Downstream Effects on Hydrology and Water Quality (Thomas Fire)
Tracing Hydrological impacts of wildfires to understand downstream landslide risks; an example of the 2017 Thomas Fire, Southern California.
Wildfires leave behind a burn scar with little to no vegetation. Depending on the original biome type and severity of the fire, it may take years for the vegetation to regain its pre-fire biomass. Fire radiative power is an early observational indicator of interest to emergency response providers to prioritize areas with increased risk of mud-slides.
This visualization starts with a wide view of the West Coast of the United States. Regions that experienced fire are shown with red outlines. The camera then zooms in to the Thomas Fire in Southern California. This fire burned about 280,000 acres near Santa Barbara between December 2017 and January 2018. The visualization shows the extent of the fire with a red outline. Burned Area Emergency Response (BAER) soil burn severity data is shown followed by the impact on evapotranspiration, then fire radiative power. The camera then zooms into a region near the coast and shows debris data (depicted as black areas with diagonal white lines).
Credits
Please give credit for this item to:
NASA's Scientific Visualization Studio
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Visualizers
- Greg Shirah (NASA/GSFC)
- Michala Garrison (SSAI)
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Scientists
- Timothy Lahmers (UMD)
- Sujay Kumar (NASA/GSFC)
- Chris Hain (NASA/MSFC)
- Elijah Orland (UMBC)
- Thomas Holmes (NASA/GSFC)
- Forrest Melton (California State University, Monterey Bay)
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Producer
- Kim Locke (SAIC)
Release date
This page was originally published on Monday, December 12, 2022.
This page was last updated on Sunday, October 6, 2024 at 11:11 PM EDT.
Datasets used
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[GTOPO30]
ID: 415 -
DEM [SRTM: SIR-C]
ID: 481 -
MTBS [Landsat]
ID: 1169 -
BAER
ID: 1170Burned Area Emergency Response
See all pages that use this dataset -
Evapotranspiration
ID: 1171Evapotranspiration data were retrieved for the DisALEXI model from OpenET (openetdata.org) under a CCBY4.0 open data license.
Credit: Melton, F., Huntington, J., Grimm, R., Herring, J., Hall, M., Rollison, D., Erickson, T., Allen, R., Anderson, M., Fisher, J., Kilic, A., Senay, G., volk, J., Hain, C., Johnson, L., Ruhoff, A., Blanenau, P., Bromley, M., Carrara, W., Daudert, B., Doherty, C., Dunkerly, C., Friedrichs, M., Guzman, A., Halverson, G., Hansen, J., Harding, J., Kang, Y., Ketchum, D., Minor, B., Morton, C., Ortega-Salazar, S., Ott, T., Ozdogon, M., Schull, M., Wang, T., Yang, Y., Anderson, R., 2021. OpenET: Filling a Critical Data Gap in Water Management for the Western United States. Journal of the American Water
See all pages that use this dataset -
Fire radiative power [Suomi NPP and NOAA-20: VIIRS]
ID: 1172 -
Debris Flow Polygons
ID: 1173Credit: USGS
See all pages that use this dataset
Note: While we identify the data sets used on this page, we do not store any further details, nor the data sets themselves on our site.